Deep Reinforcement Learning based Charging Pricing for Autonomous Mobility-on-Demand System

Ying Lu, Yanchang Liang, Zhaohao Ding, Qiuwei Wu, Tao Ding, Wei Jen Lee

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    Abstract

    The autonomous mobility-on-demand (AMoD) system plays an important role in the urban transportation system. The charging behavior of AMoD fleet becomes a critical link between charging system and transportation system. In this paper, we investigate a strategic charging pricing scheme for charging station operators (CSOs) based on a non-cooperative Stackelberg game framework. The Stackelberg equilibrium investigates the pricing competition among multiple CSOs, and explores the nexus between the CSOs and AMoD operator. In the proposed framework, the responsive behavior of AMoD operator (order-serving, repositioning, and charging) is formulated as a multi-commodity network flow model to solve an energy-aware traffic flow problem. Meanwhile, a soft actor-critic based multi-agent deep reinforcement learning algorithm is developed to solve the proposed equilibrium framework while considering privacy-conservation constraints among CSOs. A numerical case study with city-scale real-world data is used to validate the effectiveness of the proposed framework.
    Original languageEnglish
    JournalIEEE Transactions on Smart Grid
    Volume13
    Issue number2
    Pages (from-to)1412-1426
    Number of pages16
    ISSN1949-3053
    DOIs
    Publication statusPublished - 2022

    Keywords

    • Autonomous mobility-on-demand
    • Charging stations
    • Deep reinforcement learning
    • EV charging pricing
    • Power and transportation system
    • Power systems
    • Pricing
    • Roads
    • Routing
    • Schedules
    • Soft actor-critic.
    • Transportation

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